1. VFR Navigation The Standard Closing Angle Technique
Richard Champion

2. The Standard Closing Angle Technique
Aim
To learn how to get back on to your planned course during a cross country flight.
Objective
By the end of this briefing, you should be able to use the Standard Closing Angle technique to return to your planned course when your map reading indicates you have deviated.
Airmanship
Good navigation, avoiding airspace busts
Agenda
Background
Advantages/Disadvantages
How to use it
Examples
Summary

3. Background
The Standard Closing Angle is a heading change that will bring you back onto your planned course in the same number of minutes as you are miles off course.
Mathematically, it is calculated by dividing 60 by the aircraft’s True Air Speed (TAS) expressed in nautical miles per minute. A table can be prepared:-
Angles of more than 30° are undesirable, so for speeds of less than 120 kts, the Modified SCA is used and the new heading is flown for twice the time – i.e. 2 x the number of miles off track

4. Advantages/Disadvantages
Simple
all you need to remember is the modified SCA for your normal cruise TAS
Quick
Gets you back onto your planned track as soon as possible
No mental maths required
Leaves you free to fly the aircraft
It Works!
It is a proven technique, approved by examiners.
Not perfect
The calculations are not 100% correct (because based on TAS, not groundspeed), so some purists object.
Does not work for very large drift errors.

5. How do you use it Mark your actual position on your chart.
Estimate or measure the number of miles off course.
Add or subtract the modified SCA to your heading:
Add if you are turning right to regain course
Subtract if turning left
Turn onto heading and note time (or start watch).
Fly for 2 minutes for every mile off course.
During this time, analyse the reasons for being off course:
Forecast wind incorrect?
Bad flying?
Misaligned DI?
Lucky horseshoe left next to compass?
When the time is up, turn back onto original heading, adjusted if necessary to take into account the reason for the original deviation.
If you are too close to your next turning point to allow 2 minutes per mile, double the angle and halve the time.

6. Example 1
TAS 90 Kts = SCA 20°, Heading 051°, Time for leg 32mins
After 8 minutes:-
Actual Position Lewis, 2Nm off track
Turn on to new heading = 031° (=051° – 20°)
Time on new heading – 4 mins (ie 2Nm x 2)
Actual position- Uckfield, back on track
Consider reason for being off track
(DI misaligned with compass by 15°)
Realign DI, Turn back to 051°
Continue Flight
350/20
2 nm

7. Example 2 TAS 90 Kts = SCA 20°, Heading 051°, Time for leg 32mins
After 16 minutes:-
Actual Position Crowborough, 3 Nm off track
Turn on to new heading = 071° (=051° + 20°)
Time on new heading – 6 mins (i.e. 3 Nm x 2)
Actual position- Bewl, back on track
Consider reason for being off track
(Wind not as forecast, less drift than expected)
Turn back to 051°.
Adjust for lower drift (+5°)
New heading 056°
Continue Flight
3 nm
350/20

8. Example 3 TAS 90 Kts = SCA 20°, Heading 051°, Time for leg 32mins
After 24 minutes:-
Actual Position 6 Nm off track
Consider turn to 031° (=051°- 20°)
But, time required on new heading – 12 mins (i.e. 6 Nm x 2)
Too close! Only 8 minutes left to run.
Double the angle, halve the time.
Turn on to 011° (=051° - 40°)
Fly for 6 minutes (ie 6nm x 1 min per mile)
Actual position-
2mins from Headcorn.
6 nm
350/20

9. Summary We have learned about:-
What the Standard Closing Angle is
How it is calculated.
The advantages and disadvantages to the SCA technique.
Using the modified SCA for TAS less than 120kts.
How the SCA is used in flight to regain planned track.
Now memorise the (modified) SCA for the normal cruise TAS for your aeroplane. It is all you need to know in order to fly an accurate cross country.
Do your FREDA checks !